SHEAR-FREE TURBULENT BOUNDARY LAYERS .2. NEW CONCEPTS FOR REYNOLDS STRESS TRANSPORT EQUATION MODELLING OF INHOMOGENEOUS FLOWS

Perot B.; Moin P.

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SHEAR-FREE TURBULENT BOUNDARY LAYERS .2. NEW CONCEPTS FOR REYNOLDS STRESS TRANSPORT EQUATION MODELLING OF INHOMOGENEOUS FLOWS

机译：无剪切湍流边界层2。非均质流雷诺应力传输方程建模的新概念

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Models for the dissipation tenser and (slow) pressure-strain terms of the Reynolds stress transport equations are presented which are applicable near boundaries. These models take into account the large inhomogeneity and anisotropy that can be present near walls and surfaces, and are inspired by the physical insights developed in Part 1 of this paper. The dissipation tenser model represents a fundamentally new approach to dealing with turbulence inhomogeneities. The pressure-strain model shows how the classic return-to-isotropy model of Lumley (1978) can be adapted to the near-wall region. The closure hypotheses underlying these two models are tested in an a priori fashion using direct numerical simulation (DNS) data. [References: 22]

机译：提出了雷诺应力传递方程的耗散张量和（慢）压力应变项的模型，这些模型适用于边界附近。这些模型考虑了可能在壁和表面附近存在的巨大的不均匀性和各向异性，并且受到了本文第1部分中开发的物理见解的启发。耗散张量模型代表了一种从根本上解决湍流不均匀性的新方法。压力应变模型显示了Lumley（1978）的经典回归各向同性模型如何适应近壁区域。使用直接数值模拟（DNS）数据以先验方式测试了这两个模型基础的封闭假设。 [参考：22]

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《Journal of Fluid Mechanics》 |1995年第0期|共17页
作者
Perot B.; Moin P.;
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正文语种 eng
中图分类流体力学;
关键词
Near-wall turbulence; Dissipation; Closure;

机译：近壁湍流耗散封闭;

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1. SHEAR-FREE TURBULENT BOUNDARY LAYERS .2. NEW CONCEPTS FOR REYNOLDS STRESS TRANSPORT EQUATION MODELLING OF INHOMOGENEOUS FLOWS [J] . Perot B., Moin P. Journal of Fluid Mechanics . 1995,第0期

机译：无剪切湍流边界层2。非均质流雷诺应力传输方程建模的新概念
2. Analytical insights into the partially integrated transport modeling method for hybrid Reynolds averaged Navier-Stokes equations-large eddy simulations of turbulent flows [J] . Chaouat B., Schiestel R. Physics of fluids . 2012,第8期

机译：混合雷诺平均Navier-Stokes方程的部分集成输运建模方法的分析见解-湍流的大涡模拟
3. Reynolds shear stress modeling in turbulent boundary layers subject to very strong favorable pressure gradient [J] . Computers & Fluids . 2020,第期

机译：雷诺斯剪切应力建模在湍流边界层，受到非常强大的有利压力梯度
4. A reynolds stress equation turbulence model for compressible flows. Part 1: flat plate boundary layers [C] . Marianna Gnedin, Doyle Knight AIAA 33rd Aerospace Seicnces Meeting and Exhibit January 9-12, 1995/Reno, NV . -1

机译：可压缩流的雷诺应力方程湍流模型。第1部分：平板边界层
5. Prediction of transitional boundary layers and fully turbulent free shear flows, using Reynolds averaged Navier-Stokes models. [D] . Lopez Varilla, Maurin Alberto. 2014

机译：使用雷诺平均Navier-Stokes模型预测过渡边界层和完全湍流的自由剪切流。
6. Phase relations in a forced turbulent boundary layer: implications for modelling of high Reynolds number wall turbulence [O] . Subrahmanyam Duvvuri, Beverley McKeon -1

机译：强迫湍流边界层中的相位关系：对高雷诺数壁湍流建模的启示
7. Computation of 3D Asymmetric Crossing Shock Wave/Turbulent Boundary Layer Interaction Using a Full Reynolds Stress Equation Turbulence Model [O] . Ge-Cheng Zha And, Ge-cheng Zha, Doyle Knight 2007

机译：用完全雷诺应力方程湍流模型计算三维非对称交叉冲击波/湍流边界层相互作用
8. New concepts for Reynolds stress transport equation modeling of inhomogeneous flows [R] . Perot, J. Blair, Moin, Parviz 1993

机译：非均匀流动雷诺应力传递方程模型的新概念

SHEAR-FREE TURBULENT BOUNDARY LAYERS .2. NEW CONCEPTS FOR REYNOLDS STRESS TRANSPORT EQUATION MODELLING OF INHOMOGENEOUS FLOWS

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